Cas no 55802-03-4 (3,3'-dimethyl-naphthidine-disulfonic acid)

3,3'-Dimethyl-naphthidine-disulfonic acid is a sulfonated aromatic compound characterized by its two sulfonic acid groups and methyl substituents on the naphthidine backbone. This structure imparts high water solubility and reactivity, making it valuable as an intermediate in dye synthesis, particularly for azo dyes and other colorants. Its disulfonic acid groups enhance compatibility with aqueous systems, while the methyl groups contribute to steric and electronic effects that can fine-tune chromophore properties. The compound is also utilized in analytical chemistry as a reagent for oxidative coupling reactions. Its stability and functional group versatility make it suitable for specialized applications in both industrial and research settings.
3,3'-dimethyl-naphthidine-disulfonic acid structure
55802-03-4 structure
Product Name:3,3'-dimethyl-naphthidine-disulfonic acid
CAS No:55802-03-4
MF:C22H20N2O6S2
MW:472.534003257751
CID:944516
Update Time:2025-11-02

3,3'-dimethyl-naphthidine-disulfonic acid Chemical and Physical Properties

Names and Identifiers

    • 3,3'-dimethyl-naphthidine-disulfonic acid
    • Inchi: 1S/C22H20N2O6S2/c1-11-19(23)15-9-5-3-7-13(15)17(21(11)31(25,26)27)18-14-8-4-6-10-16(14)20(24)12(2)22(18)32(28,29)30/h3-10H,23-24H2,1-2H3,(H,25,26,27)(H,28,29,30)
    • InChI Key: GGGDQQYNHQQUDN-UHFFFAOYSA-N
    • SMILES: C1(C(C)=C(C2C=CC=CC=2C=1C1C2C=CC=CC=2C(N)=C(C)C=1S(O)(=O)=O)N)S(O)(=O)=O

3,3'-dimethyl-naphthidine-disulfonic acid Pricemore >>

Related Categories No. Product Name Cas No. Purity Specification Price update time Inquiry
City Chemical
D1517-5GM
3,3'-Dimethyl-Naphthidine-Disulfonic Acid
55802-03-4
5gm
$484.57 2023-09-19

Additional information on 3,3'-dimethyl-naphthidine-disulfonic acid

3,3'-Dimethyl-Naphthidine-Disulfonic Acid (CAS No. 55802-03-4): Properties, Applications, and Market Insights

3,3'-Dimethyl-naphthidine-disulfonic acid (CAS No. 55802-03-4) is a specialized organic compound with significant applications in industrial and research fields. This sulfonated aromatic derivative is known for its unique chemical properties, making it valuable in dye synthesis, analytical chemistry, and material science. The compound's molecular structure features two sulfonic acid groups attached to a naphthidine backbone, which enhances its water solubility and reactivity.

The chemical properties of 3,3'-dimethyl-naphthidine-disulfonic acid include high thermal stability and excellent compatibility with aqueous solutions. Researchers often utilize this compound as a chromogenic reagent in biochemical assays due to its ability to form colored complexes with specific metal ions. Its sulfonic acid groups also make it useful as a surfactant or dispersant in specialized formulations.

In recent years, the demand for sulfonated aromatic compounds like 3,3'-dimethyl-naphthidine-disulfonic acid has grown significantly in the field of advanced materials. This compound finds applications in the development of conductive polymers, ion-exchange membranes, and specialty coatings. The electronics industry has shown particular interest in sulfonated aromatic compounds for their potential in creating next-generation battery materials and flexible electronics.

Environmental considerations have become a hot topic in the chemical industry, and 3,3'-dimethyl-naphthidine-disulfonic acid has been studied for its biodegradation pathways. Recent research focuses on developing greener synthesis methods for this compound to reduce environmental impact while maintaining its valuable properties. Many users search for information about eco-friendly alternatives to traditional sulfonated compounds, making this an important aspect to highlight.

The analytical chemistry applications of CAS 55802-03-4 are particularly noteworthy. This compound serves as a sensitive reagent for detecting trace amounts of various metal ions in environmental samples. Its ability to form stable complexes with transition metals makes it valuable in water quality testing and industrial process monitoring. Researchers frequently search for high-sensitivity detection reagents like 3,3'-dimethyl-naphthidine-disulfonic acid for environmental analysis.

In the pharmaceutical field, derivatives of naphthidine-disulfonic acid compounds have shown potential as building blocks for drug development. While 3,3'-dimethyl-naphthidine-disulfonic acid itself isn't used directly as an active pharmaceutical ingredient, its structural features make it valuable for creating specialized intermediates. The compound's sulfonic acid groups provide points for further chemical modification, enabling the creation of diverse molecular architectures.

The global market for specialty sulfonated compounds including 3,3'-dimethyl-naphthidine-disulfonic acid is expected to grow steadily, driven by increasing demand from the electronics, water treatment, and specialty chemicals sectors. Manufacturers are focusing on improving production efficiency and purity levels to meet the stringent requirements of high-tech applications. Many industry professionals search for reliable suppliers of high-purity sulfonated compounds to support their research and production needs.

Quality control is crucial when working with 3,3'-dimethyl-naphthidine-disulfonic acid, as impurities can significantly affect its performance in sensitive applications. Standard analytical techniques for assessing purity include HPLC, mass spectrometry, and UV-Vis spectroscopy. The compound typically appears as a light-colored powder with good solubility in water and polar organic solvents.

Recent innovations in synthetic chemistry have led to improved methods for producing CAS 55802-03-4 with higher yields and lower environmental impact. Green chemistry approaches, including catalytic processes and solvent optimization, are becoming increasingly important in the manufacture of such specialty chemicals. These developments align with current industry trends toward sustainable chemical production.

Storage and handling of 3,3'-dimethyl-naphthidine-disulfonic acid require standard laboratory precautions. The compound should be kept in a cool, dry place away from strong oxidizing agents. While it doesn't present significant hazards under normal conditions, proper personal protective equipment should be used when handling the powder form to prevent inhalation or contact with eyes and skin.

The future research directions for naphthidine-disulfonic acid derivatives include exploring their potential in energy storage applications and advanced sensor technologies. Their unique combination of electronic properties and chemical stability makes them promising candidates for innovative materials. Many researchers are investigating how modifications to the basic structure can tailor the compound's properties for specific high-tech applications.

For laboratories and industries considering 3,3'-dimethyl-naphthidine-disulfonic acid for their applications, it's important to work with reputable suppliers who can provide detailed technical specifications and safety data. The compound's performance can vary depending on synthesis methods and purification processes, so obtaining material from trusted sources ensures consistent results in research and production settings.

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